运动学GNSS定位结果与Agisoft Metashape和Pix4dmapper在加利福尼亚州弗雷斯诺县圣华金实验范围内产生的结果进行了比较

IF 0.9 Q4 REMOTE SENSING Journal of Geodetic Science Pub Date : 2021-01-01 DOI:10.1515/jogs-2020-0122
M. Berber, R. Munjy, J. Lopez
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引用次数: 3

摘要

RTKLIB是一个开源的全球导航卫星系统(GNSS)软件,由于最近UAS(无人机系统)技术的发展,在测量专业人员中得到了迅速的接受。RTKLIB能够在实时和后处理模式下执行标准和精确的点定位(PPP)。因此,无人机用户利用该软件分析无人机上GNSS系统收集的GNSS数据。由于其通用性和自由性,RTKLIB被许多人普遍使用;然而,它并不是唯一免费提供的GNSS软件。还有免费的在线GNSS数据处理软件在服务器上运行。这些在线GNSS数据处理服务提供静态、动态和快速静态模式的数据处理。由于UAS采用运动学方式采集数据,因此本研究主要对上述软件(csr - ppp、GAPS和APPS)的运动学数据处理进行分析。来自这些软件的结果与摄影测量软件(Agisoft Metashape和Pix4Dmapper)产生的结果进行比较。这个实际项目的目的是产生关于这些软件性能的一般化知识。结果表明,RTKLIB和CSRS-PPP均达到厘米级精度。然而,GAPS和APPS在水平和垂直坐标上都达到了dm级的精度。本研究证明了这些软件用于动态GNSS数据处理的精度和准确性。
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Kinematic GNSS positioning results compared against Agisoft Metashape and Pix4dmapper results produced in the San Joaquin experimental range in Fresno County, California
Abstract RTKLIB which is an open source Global Navigation Satellite Systems (GNSS) software has gained rapid acceptance among Surveying professionals thanks to recent developments in UAS (Unmanned Aerial System) technology. RTKLIB enables standard and precise point positioning (PPP) in real-time and post-processing modes to be performed. As such, UAS users utilize this software to analyze GNSS data collected by GNSS systems on UAS. By being versatile and free, RTKLIB is commonly used by many; however, it is not the only freely available GNSS software. There are also freely available online GNSS data processing software running on servers. These online GNSS data processing services provide data processing in static, kinematic and rapid static modes. Because UAS collect data in kinematic mode, in this study, kinematic data processing by aforementioned software (CSRS-PPP, GAPS and APPS) is analyzed. The results coming from these software are compared against the results produced by photogrammetric software (Agisoft Metashape and Pix4Dmapper). The aim of this practical project is to produce generalizable knowledge about the performance of these software. It is found out that RTKLIB and CSRS-PPP achieved cm-level precision. Yet, GAPS and APPS achieved dm-level precision both for horizontal and vertical coordinates. This study demonstrates the precision and accuracy expected from these software if they are used for kinematic GNSS data processing.
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来源期刊
Journal of Geodetic Science
Journal of Geodetic Science REMOTE SENSING-
CiteScore
1.90
自引率
7.70%
发文量
3
审稿时长
14 weeks
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